Upload
radha-krishna-chowdary
View
242
Download
0
Tags:
Embed Size (px)
DESCRIPTION
JI
Citation preview
Chapter 1
1
INTRODUCTION
1.1. INTRODUCTION TO PROJECT
This project will be designed and developed for FAQ’s posted to various departments. The University
examination branch wants to maintain all the frequently asked questions in the database subject wise, to
available them to all the students. And they will update the questions as and when required. The primary goal
of Infoware Services is to provide an environment that is both convenient and efficient to use in retrieving and
storing database information.
The database system must provide for the safety of the information stored, despite system crashes or
attempts at unauthorized access. If data are to be shared among several users, the system must avoid possible
anomalous results.
In “Info ware Services” maintaining the details of various frequently asked questions posted by the
students to the administrators of consult department are to be kept in a data base and also can be retrieved easily
when the admin answers that question.
1.2. ORGANIZATION PROFILE
SOFTWARE SOLUTIONS
Software Solutions is an IT solution provider for a dynamic environment where business and
technology strategies converge. Their approach focuses on new ways of business combining IT innovation and
adoption while also leveraging an organization’s current IT assets. Their work with large global corporations
and new products or services and to implement prudent business and technology strategies in today’s
environment.
XXX’S RANGE OF EXPERTISE INCLUDES:
Software Development Services
Engineering Services
Systems Integration
Customer Relationship Management
2
Product Development
Electronic Commerce
Consulting
IT Outsourcing
We apply technology with innovation and responsibility to achieve two broad objectives:
Effectively address the business issues our customers face today.
Generate new opportunities that will help them stay ahead in the future.
THIS APPROACH RESTS ON:
A strategy where we architect, integrate and manage technology services and solutions - we call it AIM for
success.
A robust offshore development methodology and reduced demand on customer resources.
A focus on the use of reusable frameworks to provide cost and times benefits.
They combine the best people, processes and technology to achieve excellent results - consistency. We offer
customers the advantages of:
SPEED:
They understand the importance of timing, of getting there before the competition. A rich portfolio of
reusable, modular frameworks helps jump-start projects. Tried and tested methodology ensures that we follow a
predictable, low - risk path to achieve results. Our track record is testimony to complex projects delivered
within and evens before schedule.
EXPERTISE:
Our teams combine cutting edge technology skills with rich domain expertise. What’s equally important
- they share a strong customer orientation that means they actually start by listening to the customer. They’re
focused on coming up with solutions that serve customer requirements today and anticipate future needs.
A FULL SERVICE PORTFOLIO:
They offer customers the advantage of being able to Architect, integrate and manage technology services. This
means that they can rely on one, fully accountable source instead of trying to integrate disparate multi vendor
solutions.
3
SERVICES:
That is providing its services to companies which are in the field of production, quality control etc with
their rich expertise and experience and information technology they are in best position to provide software
solutions to distinct business requirements.
1.3. PURPOSE OF THE PROJECT
The purpose of this Software Requirement Specification (SRS) is to help the project. It is provided
with some requirements which are used in infoware services.. All parts; design, coding and testing will be
prepared with helping of SRS. The purpose of this document is to detail the requirements placed on the
infoware services... System and serves as a contract between the customer and the developers as to what is to be
expected of the infoware services, and how the components of the system are to work with each other with
external systems.
This document will be checked by group member’s supervisor and it will corrected by members if
supervisor orders.
4
Chapter 2
5
SYSTEM ANALYSIS
2.1. INTRODUCTION
After analyzing the requirements of the task to be performed, the next step is to analyze the problem and
understand its context. The first activity in the phase is studying the existing system and other is to understand
the requirements and domain of the new system. Both the activities are equally important, but the first activity
serves as a basis of giving the functional specifications and then successful design of the proposed system.
Understanding the properties and requirements of a new system is more difficult and requires creative thinking
and understanding of existing running system is also difficult, improper understanding of present system can
lead diversion from solution.
2.2. ANALYSIS MODEL
The model that is basically being followed is the SPIRAL MODEL, which states that the phases are
organized in a linear order. First of all the feasibility study is done. Once that part is over the requirement
analysis and project planning begins. If system exists one and modification and addition of new module is
needed, analysis of present system can be used as basic model.
The design starts after the requirement analysis is complete and the coding begins after the design is
complete. Once the programming is completed, the testing is done. In this model the sequence of activities
performed in a software development project are: -
Requirement Analysis
Project Planning
System design
Detail design
Coding
Unit testing
System integration & testing
Here the linear ordering of these activities is critical. End of the phase and the output of one phase is the
input of other phase. The output of each phase is to be consistent with the overall requirement of the system.
6
SPIRAL MODEL was defined by Barry Boehm in his 1988 article, “A spiral Model of Software
Development and Enhancement. This model was not the first model to discuss iterative development, but it was
the first model to explain why the iteration models.
As originally envisioned, the iterations were typically 6 months to 2 years long. Each phase starts with a
design goal and ends with a client reviewing the progress thus far. Analysis and engineering efforts are applied
at each phase of the project, with an eye toward the end goal of the project.
The following diagram shows how a spiral model acts like:
Fig 1.0: Spiral Model
7
2.3. STUDY OF THE SYSTEM
In the flexibility of uses the interface has been developed a graphics concepts in mind, associated through a
browser interface. The GUI’s at the top level has been categorized as follows
1. Administrative User Interface Design
2. The Operational and Generic User Interface Design
The administrative user interface concentrates on the consistent information that is practically, part of the
organizational activities and which needs proper authentication for the data collection. The Interface helps the
administration with all the transactional states like data insertion, data deletion, and data updating along with
executive data search capabilities.
The operational and generic user interface helps the users upon the system in transactions through the existing
data and required services. The operational user interface also helps the ordinary users in managing their own
information helps the ordinary users in managing their own information in a customized manner as per the
assisted flexibilities.
Number of Modules:
After careful analysis the system has been identified to have the following modules:
The project contains three modules
Super User
Administrator
Student
Super User:
The responsibility of the super user is to centrally control the data, appoint administrators to all the
departments and shifting the administrators one department to other and replacing with others when there is a
vacancy in any departments.
Administrator:
The major responsibility of administrator is to answer all the questions posted by students on a regular
basis. The administrator can add, modify or remove questions from all the categories. Administrator also
reserves a right to post a question into a particular category even if it is not a question frequently asked. The
administrators have the capability of changing his password as when he requires.
8
Students:
These are the users at the lower level of our abstraction. Before posting a question, the student has to
select the department to which it belongs. A copy of the answer will be sent to the student after the
administrator answered his question.
2.4. HARDWARE & SOFTWARE SPECIFICATIONS
Hardware Requirements:
Client Side
Processor RAM Disk Space
Internet Explorer 6.0
Or Higher
Computer with a 2.6GHz
processor or higher (Pentium
processor recommended)
512MB Minimum Minimum 20 GB
Server Side
Apache Tomcat Intel Pentium processor at
2.6GHz or faster
Minimum 512 MB
Physical Memory; 1 GB
Recommended
Minimum 20 GB
Net Beans 6.8/My
Eclipse 6.x
Oracle10g/9i or Mysql
or Ms Access
Intel Pentium Processor at
2.6GHz or faster
Minimum 512 MB
Physical Memory; (1 GB
Recommended)
Minimum 20 GB
Software Interface:
Client on Internet/Intranet: Any web browser.
9
Web Server: Apache Tomcat.
Database Server: Oracle10g/9i or Mysql or Ms Access.
Development End: NetBeans6.x,MyEclips6.x
2.5. PROBLEMS IN EXISTING SYSTEM
The existing system is a manual one. When the student wants to clear his query he personally contacts
the concerned person in the university. The concerned person will clear his doubt.
Disadvantages:
Difficulty in contacting the concerned person.
Difficult to handle more students for administrator.
Difficulty of maintaining frequently asked questions in a data base
2.6. PROPOSED SYSTEM
To overcome all the difficulties of the existing system the management has proposed automated
the whole system and the development of the new automated system contains the following activities, which try
to automate the entire process keeping in view of the database integration approach.
The Info ware Services is to replace the existing manual system with a software solution.
The University examination branch wants to maintain all the frequently asked questions in the database
subject wise, to avail them to all the students. And they will update the questions as and when required
in online.
The proposed system has one super user to control the data, appointing the administrators in each
department.
The administrator is responsible to answer all the questions posted by students
10
Chapter 3
Feasibility Report
11
Preliminary investigation examine project feasibility, the likelihood the system will be useful to the
organization. The main objective of the feasibility study is to test the Technical, Operational and Economical
feasibility for adding new modules and debugging old running system. All system is feasible if they are
unlimited resources and infinite time. There are aspects in the feasibility study portion of the preliminary
investigation:
Technical Feasibility
Operation Feasibility
Economical Feasibility
3.1. Technical Feasibility
The technical issue usually raised during the feasibility stage of the investigation includes the following:
Does the necessary technology exist to do what is suggested?
Do the proposed equipments have the technical capacity to hold the data required to use the new system?
Will the proposed system provide adequate response to inquiries, regardless of the number or location of
users?
Can the system be upgraded if developed?
Are there technical guarantees of accuracy, reliability, ease of access and data security?
Earlier no system existed to cater to the needs of ‘Secure Infrastructure Implementation System’. The
current system developed is technically feasible. It is a web based user interface for audit workflow at ABC
Tech. Thus it provides an easy access to the users. The database’s purpose is to create, establish and maintain a
workflow among various entities in order to facilitate all concerned users in their various capacities or roles.
Permission to the users would be granted based on the roles specified. Therefore, it provides the technical
guarantee of accuracy, reliability and security. The software and hard requirements for the development of this
project are not many and are already available in-house at ABC Tech or are available as free as open source.
The work for the project is done with the current equipment and existing software technology. Necessary
bandwidth exists for providing a fast feedback to the users irrespective of the number of users using the system.
3.2. Operational Feasibility
12
Proposed projects are beneficial only if they can be turned out into information system. That will meet the
organization’s operating requirements. Operational feasibility aspects of the project are to be taken as an
important part of the project implementation. Some of the important issues raised are to test the operational
feasibility of a project includes the following: -
Is there sufficient support for the management from the users?
Will the system be used and work properly if it is being developed and implemented?
Will there be any resistance from the user that will undermine the possible application benefits?
This system is targeted to be in accordance with the above-mentioned issues. Beforehand, the
management issues and user requirements have been taken into consideration. So there is no question of
resistance from the users that can undermine the possible application benefits.
The well-planned design would ensure the optimal utilization of the computer resources and would help in the
improvement of performance status.
3.3. Economic Feasibility
A system can be developed technically and that will be used if installed must still be a good investment for the
organization. In the economical feasibility, the development cost in creating the system is evaluated against the
ultimate benefit derived from the new systems. Financial benefits must equal or exceed the costs.
The system is economically feasible. It does not require any addition hardware or software. Since the
interface for this system is developed using the existing resources and technologies available at ABC Tech,
There is nominal expenditure and economical feasibility for certain.
13
Chapter 4
SOFTWARE REQUIREMENT SPECIFICATION
14
INTRODUCTION
This project will be designed and developed for FAQ’s posted to various departments on various
topics. The University examination branch has to maintain all the frequently asked questions in the database
Topic and Department wise, to make them available to all the students. And they can post the questions as and
when required. The primary goal of Infoware Services is to provide an environment that is both convenient and
efficient to use in retrieving and storing database information.
The database system must provide for the safety of the information stored, despite system crashes or
attempts at unauthorized access. If data are to be shared among several users, the system must avoid possible
anomalous results.
In “Info ware Services” maintaining the details of various frequently asked questions posted by the
students to the administrators of consult department are to be kept in a data base and also can be retrieved easily
when the admin answers that question.
Purpose
The purpose of this Software Requirement Specification (SRS) is to help the project. It is provided with
some requirements which are used in infoware services.. All parts; design, coding and testing will be prepared
with helping of SRS. The purpose of this document is to detail the requirements placed on the infoware
services... System and serves as a contract between the customer and the developers as to what is to be expected
of the infoware services, and how the components of the system are to work with each other with external
systems.
This document will be checked by group member’s supervisor and it will corrected by members if
supervisor orders.
Scope
DEVELOPERS RESPONSIBILITIES OVERVIEW:
The developer is responsible for:
Developing the system, which meets the SRS and solving all the requirements of the system?
Demonstrating the system and installing the system at client's location after the acceptance testing is
successful.
15
Submitting the required user manual describing the system interfaces to work on it and also the documents
of the system.
Conducting any user training that might be needed for using the system.
Maintaining the system for a period of one year after installation.
4.1. FUNCTIONAL REQUIREMENTS:
Following is a list of functionalities of the system.
The Insurance on Internet application proposed to be implemented for an insurance company should implement
the services for four types of users like Administrators, Agents, Policy Holders and normal users. The services
that this system should support for these users are summarized below:
This system should provide the administrator with the convenience such as adding a new agent, view and
manage the information about the agents, view the following reports by day-wise, weekly, or monthly:
Number of polices filed by a particular agent
Number of polices filed by a particular region
Number of polices approved from a particular region
Overall the agents performance
This system should help the agents by providing the details online and provides a facility to search the policy
holder records based on various options like based on the type of policy, location of the customer. It should
allow the agents to set alert messages to the policy holders for the renewals/ changes in the policy rules etc. The
agents should be able to post news on to the notice board. The agents should be able to generate the following
reports:
number of policies processed in specified duration with detailed breakup
number of policies for specific insurance plan with details
number of policies prepared customer wise with details
policy wise reports for amount and customer details
All these services should be available to the administrator also.
This system should include support for the policy holders to view their policy details, view the information
catalog and search facility for all available policies exportable in PDF format. The Insurance Premium
16
calculator to provide details as the amount of premium, annually, quarterly etc. View the catalog and contact
information about agents of a particular regions. The customers should get report on the payment history.
All these services should be available to the policy holders after successful login.
The normal user (i.e. unregistered user) should be able to view the catalog and contact information about agents
of a particular region. Send request to the company for the policy details.
4.2. NON_FUNCTIONAL REQUIREMENTS:
The system should be web-based system. Users should use the system via internet. Each user should have a user
account. The system should ask the username and password to users. It doesn’t permit to unregistered user to
access for Insurance on Internet. The system should have Role based System functions access. Approval
Process has to be defined. The system should have Modular customization components so that they can be
reused across the implementation.
These are the mainly following:
Secure access of confidential data (user’s details). SSL (Secure Sockets Layer) can be used.
24 X 7 availability
Better component design to get better performance at peak time
Flexible service based architecture will be highly desirable for future extension
4.3. PERFORMANCE REQUIREMENTS
Performance is measured in terms of the output provided by the application.
Requirement specification plays an important part in the analysis of a system. Only when the requirement
specifications are properly given, it is possible to design a system, which will fit into required environment. It
rests largely in the part of the users of the existing system to give the requirement specifications because they
are the people who finally use the system. This is because the requirements have to be known during the initial
stages so that the system can be designed according to those requirements. It is very difficult to change the
system once it has been designed and on the other hand designing a system, which does not cater to the
requirements of the user, is of no use.
The requirement specification for any system can be broadly stated as given below:
The system should be able to interface with the existing system
The system should be accurate
The system should be better than the existing system
The existing system is completely dependent on the user to perform all the duties.
17
Chapter 5
18
SYSTEM DOVELOPEMENT ENVIRONMENT
5.1. INTRODUCTION TO JAVA
About Java:
Initially the language was called as “oak” but it was renamed as “java” in 1995.The primary motivation of
this language was the need for a platform-independent(i.e. architecture neutral)language that could be used
to create software to be embedded in various consumer electronic devices.
Java is a programmer’s language
Java is cohesive and consistent
Except for those constraint imposed by the Internet environment. Java gives the programmer, full
control
Finally Java is to Internet Programming where c was to System Programming.
Importance of Java to the Internet
Java has had a profound effect on the Internet. This is because; java expands the Universe of objects that can
move about freely in Cyberspace. In a network, two categories of objects are transmitted between the server
and the personal computer. They are passive information and Dynamic active programs. in the areas of
Security and probability. But Java addresses these concerns and by doing so, has opened the door to an
exciting new form of program called the Applet.
Applications and applets. An application is a program that runs on our Computer under the operating
system of that computer. It is more or less like one creating using C or C++ .Java’s ability to create Applets
makes it important. An Applet I san application, designed to be transmitted over the Internet and executed
by a Java-compatible web browser. An applet I actually a tiny Java program, dynamically downloaded
across the network, just like an image. But the difference is, it is an intelligent program, not just a media file.
It can be react to the user input and dynamically change.
Java Architecture
Java architecture provides a portable, robust, high performing environment for development. Java
provides portability by compiling the byte codes for the Java Virtual Machine, which is then interpreted on
19
each platform by the run-time environment. Java is a dynamic system, able to load code when needed from
a machine in the same room or across the planet.
Compilation of code
When you compile the code, the Java compiler creates machine code (called byte code)for a hypothetical
machine called Java Virtual Machine(JVM). The JVM is supposed t executed the byte code. The JVM is
created for the overcoming the issue of probability. The code is written and compiled for one machine and
interpreted on all machines .This machine is called Java Virtual Machine.
Compiling and interpreting java source code.
During run-time the Java interpreter tricks the byte code file into thinking that it is running on a Java Virtual
Machine. In reality this could be an Intel Pentium windows 95 or sun SPARCstation running Solaris or
Apple Macintosh running system and all could receive code from any computer through internet and run the
Applets.
Simple:
Java was designed to be easy for the Professional programmer to learn and to use effectively. If you are an
experienced C++ Programmer. Learning Java will oriented features of C++ . Most of the confusing concepts
Source code
Pc compiler
Macintosh compiler
SPARC Compiler
Java Byte code
Platform indepen
dent
Java interpreter
Java interpretermacintosh
)))
Java interpreter(
SPARC)
20
from C++ are either left out of Java or implemented in a cleaner, more approachable manner. In Java there
are a small number of clearly defined ways to accomplish a given task.
Object oriented
Java was not designed to be source-code compatible with any other language. This allowed the Java team
the freedom to design with a blank state. One outcome of this was a clean usable, pragmatic approach to
objects. The object model in Java is simple and easy to extend, while simple types, such as integers, are kept
as high-performance non-objects.
Robust
The multi-platform environment of the web places extraordinary demands on a program, because the
program must execute reliably in a variety of systems. The ability to create robust programs. Was given a
high priority in the design of Java. Java is strictly typed language; it checks your code at compile time and
runtime.
Java virtually eliminates the problems of memory management and deal location, which is completely
automatic. In a well-written Java program, all run-time errors can and should be managed by your program.
5.2. Servlets/JSP
A Servlet Is a generic server extension. a Java class that can be loaded
Dynamically to expand the functionality of a server.Servlets are commonly used with web servers. Where
they can take the place CGI scripts.
A servlet is similar to proprietary server extension, except that it runs inside a Java Virtual Machine (JVM)
on the server, so it is safe and portable
Servlets operate solely within the domain of the server.
Unlike CGI and Fast CGI, which use multiple processes to handle separate program or separate requests,
separate threads within web server process handle all servlets. This means that servlets are all efficient and
scalable.
Servlets are portable; both across operating systems and also across web servers. Java Servlets offer the
best possible platform for web application development.
21
Servlets are used as replacement for CGI scripts on a web server, they can extend any sort of server such as
a mail server that allows servelts t extend its functionality perhaps by performing a virus scan on all attached
documents or handling mail filtering tasks.
Servlets provide a Java-based solution used to address the problems currently associated with doing server-
side programming including inextensible scripting solutions platform-specific API’s and incomplete
interface.
Servlets are objects that conform to a specific interface that can be plugged into a Java-based server.Servlets
are to the server-side what applets are to the server-side what applets are to the client-side-object byte codes
that can be dynamically loaded off the net. They differ form applets in than they are faceless objects(with
out graphics or a GUI component).They serve as platform independent, dynamically loadable,plugable
helper byte code objects on the server side that can be used to dynamically extend server-side functionality.
For example an HTTP servlet can be used to generate dynamic HTML content when you use servlets to
do dynamic content you get the following advantages:
They’re faster and cleaner then CGI scripts
They use a standard API( the servlet API)
They provide all the advantages of Java (run on a variety of servers without needing to be
rewritten)
Attractiveness of servlets:
They are many features of servlets that make them easy and attractive to tuse these include:
Easily configure using the GUI-based Admin tool]
Can be Loaded and Invoked from a local disk or remotely across the network.
Can be linked together or chained, so that on servlet can call another servlet, or several servlets
in sequence.
Can be called dynamically from with in HTML, pages using server-side include-tags.
22
Are secure-even when downloading across the network, the servlet security model and servlet
and box protect your system from unfriendly behavior.,
Advantages of the servlet API
One of the great advantages of the servlet API is protocol independent. It assumes nothing about:
The protocol being used to transmit on the net
How it is loaded
The server environment it will be running in
These quantities are important, because it allows the Servlet API to be embedded in many
different kinds of servers.There are other advantages to the servelt API as well These include:
It’s extensible-you can inherit all your functionality from the base classes made available to you
It’s simple small, and easy to use.
Features of Servlets:
Servlets are persistent.Servlet are loaded only by the web server and can maintain services
between requests.
Servlets are fast. Since servlets only need to be l\loaded once, they offer much better
performance over their CGI counterparts.
Servlets are platform independent.
Servlets are extensible Java is a robust, object-oriented programming language, which easily can
be extended to suit your needs.
Servlets are secure
Servlets are used with a variety of client.
Servlets are classes and interfaces from tow packages,javax .servlet and javax.servlet.http.The java.servlet
package contains classes t support generic, protocol-independent servlets.The classes in the
javax.servelt.http package To and HTTP specific functionality extend these classes
23
Every servlet must implement the javax.servelt interface.Most servlets implement it by extending one of two
classes.javax.servlet.GenericServlet or javax.servlet.http.HttpServlet.A protocol-independent servlet should
subclass Generic-Servlet.while an Http servlet should subclass HttpServlet, which is itself a subclass of
Generic-servlet with added HTTP-specific functionality.
Unlike a java program, a servlet does not have a main() method,Instead the server in the process of handling
requests invoke certain methods of a servlet.Each time the server dispatches a request to a servlet, it invokes
the servelts Service() method,
A generic servlet should override its service() method to handle requests as appropriate for the servlet.The
service() accepts two parameters a request object and a response object .The request object tells the servlet
about the request, while the response object is used to return a response
InContrast.anHttp servlet usually does not override the service() method.Instead it overrides doGet() to
handle GET requests and doPost() to handle Post requests. An Http servlet can override either or both of
these modules the service() method of HttpServlet handles the setup and dispatching to all the doXXX()
methods.which iswhy it usually should not be overridden
The remainders in the javax.servlet and javax.servlet.http.package are largely support classes .The
ServletRequest and ServletResponse classes in javax.servlet provide access to generic server requests and
responses while HttpServletRequest and HttpServletResponse classes in javax.servlet provide access to
generic server requests and responses while HttpServletRequest and HttpServletResponse in
javax.servlet.http provide access a HTTP requests and responses . The javax.servlet.http provide contains an
HttpSession class that provides built-in session tracking functionality and Cookie class that allows quickly
setup and processing HttpCookies.
Loading Servlets:
Servlets can be loaded from their places. From a directory that is on the CLASSPATH. The CLASSPATH
of the JavaWebServer includes service root/classes/, which is where the system classes reside
24
From the <SERVICE_ROOT/servlets/directory.This is not in the server’s classpath. A class loader is used
to create servlets form this directory.New servlets can be added-existing servlets can be recompiled and the
server will notice these changes. From a remote location.For this a code base like
http://nine.eng/classes/foo/ is required in addtion to the servlet’s class name.Refer to the admin Gui docs on
servlet section to see how to set this up.
Loading Remote Servlets
Remote servlets can be loaded by:
Configuring the admin Tool to setup automatic loading of remote servlets.
Selectiong up server side include tags in .html files
Defining a filter chain Configuration
Invoking Servlets
A servlet invoker is a servlet that invokes the “server” method on a named servlet.If the servlet is not loaded
in the server,then the invoker first loades the servlet(either form local disk or from the network) and the then
invokes the “service” method.Also like applets,local servlets in the server can be identified by just the class
name.In other words, if a servlet name is not absolute.it is treated as local.
A Client can Invoke Servlets in the Following Ways:
The client can ask for a document that is served by the servlet.
The client(browser) can invoke the servlet directly using a URL, once it has been mapped using
the SERVLET ALIASES Section of the admin GUI
The servlet can be invoked through server side include tags.
The servlet can be invoked by placing it in the servlets/directory
The servlet can be invoked by using it in a filter chain
The Servlet Life Cycle:-
The Servlet life cycle is one of the most exciting features of Servlets.This life cycle is a powerful hybrid of
the life cycles used in CGI programming and lower-level NSAPI and ISAPI programming.
25
The servlet life cycle allows servlet engines to address both the performance and resource problems of CGI
and the security concents of low level server API programming.
Servlet life cycle is highly flexible Servers hava significant leeway in how they choose to support
servlets.The only hard and fast rule is that a servlet engine must confor to the following life cycle contact:
Create and initialize the servlets
Handle zero or more service from clients
Destroy the servlet and then garbage Collects it.
It’s perfectly legal for a servlet t be loaded, created an initialzed in its own JVM,only to be destroyed an
dgarbage collected without hancdling any clientrequest or after handling just one request
The most common and most sensible life cycle implemntations for HTTP servelts are:
Single java virtual machine and astatine persistence.
Init() and Destroy():-
Just like Applets servlets can define init() and destroy() methods, A servlets init(ServiceConfig)
method is called by the server immediately after the server constructs the servlet’s instance.Depanding on
the server and its configuration, this can be at any of these times
When the server states
When the servlet is first requested, just before the service() method is invoked
At the request of the server administrator
In any case, nit() is guaranteed to be called before the servlet handles its first request
The init() method is typically used to perform servlet initialization creating or loading objects that are used
by the servlet in handling of its request. In order to providing a new servlet any information about itself and
its environment, a server has to call a servelts init() method and pass an object that implement the
ServletConfig interface.
26
This ServletConfig object supplies a servlet with information about its initialization parameters.These
parameters are given to the servlets and are not associated with any single request.They can specify initial
values, such as where a counter should begin counting, or default values, perhaps a template to use when
not specified by the request,
The server calls a servlet’s destroy() method when the servlet is about to be unloaded. In the destroy()
method, a servlet should free any resources it has acquired that will not be garbage collected. The destroy()
method also gives a servlet a chance to write out its unsaved. cached information or any persistent
information that should be read during the next call to init().
Session Tracking:
HTTP is a stateless protocol, it provides no way for a server to recognize that a sequence of requests is all
from the same client. This causes a problem for application such as shopping cart applications. Even in chat
application server can’t know exactly who’s making a request of several clients.
The solution for this is for client to introduce itself as it makes each request, Each clients needs to provide a
unique identifier that lets the server identify it, or it needs to give some information that the server can use
to properly handle the request, There are several ways to send this introductory information with each
request Such as:
USER AUTHORIZATION:
One way to perform session tracking is to leverage the information that comes with
User authorization. When a web server restricts access to some of its resources to only those clients that log
in using a recognized username and password. After the client logs in, the username is available to a servlet
through getRemoteUser()
Wean use the username to track the session. Once a user has logged in, the browser remembers her
username and resends the name and password as the user views new pages on the site. A servlet can identify
the user through her username and they’re by
27
Track her session.
The biggest advantage of using user authorization to perform session tracking is that it’s easy to implement.
Simply tell the protect a set of pages, and use getRemoteUser() to identify each client.Another advantage is
that the technique works even when the user accesses your site form or exists her browser before coming
back.
The biggest disadvantage of user authrization is that it requires each user to register for an account and then
log in in each time the starts visiting your site. Most users will tolerate registering and lagging in as a
necessary evil when they are accessing sensitive information, but its all overkill for simple session
tracking.Other problem with user authorization is that a user cannot simultaneously maintain more than one
session at the same site.
Hidden Form Fields:
One way to support anonymous session tracking is to use hidden from fields. As the name implies, these are
fields added to an HTML, form that are not displayed in the client’s browser, They are sent back to the
server when the form that contains them is submitted.
In a sense, hidden form fields define constant variables for a form. To a servlet receiving a submitted form,
there is no difference between a hidden fields and a visible filed.
As more and more information is associated with a clients session . It can become burdensome to pass it all
using hidden form fields. In these situations it’s possible to pass on just a unique session ID that identifies as
particular clients session.
That session ID can be associated with complete information about its session that is stored on the server.
The advantage of hidden form fields is their ubiquity and support for anonymity. Hidden fields are
supported in all the popular browsers, they demand on special server requirements, and they can be used
with clients that haven’t registered or logged in.
The major disadvantage with this technique, however is that works only for a sequence of dynamically
generated forms, The technique breaks down immediately with static documents, emailed documents book
marked documents and browser shutdowns.
28
URL Rewriting:
URL rewriting is another way to support anonymous session tracking, With URL rewriting every local
URL the user might click on is dynamically modified. or rewritten, to include extra, information. The extra
information can be in the deform of extra path information, added parameters, or some custom, server-
specific.URL change. Due to the limited space available in rewriting a URL, the extra information is usually
limited to a unique session.
Each rewriting technique has its own advantage and disadvantage
Using extra path information works on all servers, and it works as a target for forms that use both the Get
and Post methods. It does not work well if the servlet has to use the extra path information as true path
information
The advantages and disadvantages of URL.rewriting closely match those of hidden form fileds,The major
difference is that URL rewriting works for all dynamically created documents, such as the Help servlet, not
just forms. With the right server support, custom URL rewriting can even work for static documents.
Persistent Cookies:
A fourth technique to perform session tracking involves persistent cookies. A cookie is a bit of information.
sent by a web server to a browser that can later be read back form that browser. When a browser receives a
cookie, it saves the cookie and there after sends the cookie back to the server each time it accesses a page on
that server, subject to certain rules. Because a cookie’s value can uniquely identify a client, cookies are
often used for session tracking.
Persistent cookies offer an elegant, efficient easy way to implement session tracking. Cookies provide as
automatic an introduction for each request as we could hope for. For each request, a cookie can
automatically provide a client’s session ID or perhaps a list of clients performance. The ability to customize
cookies gives them extra power and versatility.
The biggest problem with cookies is that browsers don’t always accept cookies sometimes this is because
the browser doesn’t support cookies. More often its because
The browser doesn’t support cookies. More often its because the user has specifically configured the
browser to refuse cookies.
The power of serves:
29
The power of servlets is nothing but the advantages of servlets over other approaches, which
include portability, power, efficiency, endurance, safety elegance,integration,extensibility and flexibility.
Portability:
As servlets are written in java and conform to a well defined and widely accepted API.they are highly
portable across operating systems and across server implementation
We can develop a servlet on a windows NT machine running the java web server and later deploy it
effortlessly on a high-end Unix server running apache. With servlets we can really “write once, serve every
where”
Servlet portability is not the stumbling block it so often is with applets, for two reasons
First,Servlet portability is not mandatory i.e. servlets has to work only on server machines that we are using
for development and deployment
Second, servlets avoid the most error-prone and inconstancy implemented portion of the java languages.
Power:
Servlets can harness the full power of the core java. API’s: such as Networking and Url access,
multithreading, image manipulation, data compression, data base connectivity, internationalization, remote
method invocation(RMI) CORBA connectivity, and object serialization, among others,
Efficiency And Endurance:
Servlet invocation is highly efficient, Once a servlet is loaded it generally remains in the server’s
memory as a single object instance, There after the server invokes the servelt to handle a request using a
simple, light weighted method invocation .Unlike the CGI, there’s no process to spawn or interpreter to
invoke, so the servlet can begin handling the request almost immediately, Multiple, concurrent requests are
handled the request almost immediately. Multiple, concurrent requests are handled by separate threads, so
servlets are highly scalable.
Servlets in general are enduring objects. Because a servlets stays in the server’s memory as a single object
instance. it automatically maintains its state and can hold onto external resources, such as database
connections.
Safety:
30
Servlets support safe programming practices on a number of levels.
As they are written in java,servlets inherit the strong type safety of the java language. In addition the servlet
API is implemented to be type safe. Java’s automatic garbage collection and lack of pointers mean that
servlets are generally safe from memory management problems like dangling pointers invalid pointer
references and memory leaks.
Servlets can handle errors safely, due to java’s exception – handling mechanism. If a servlet divides by
zero or performs some illegal operations, it throws an exception that can be safely caught and handled by
the server.
A server can further protect itself from servlets through the use of java security manager.A server can
execute its servlets under the watch of a strict security manager.
Elegance:
The elegance of the servlet code is striking .Servlet code is clean, object oriented modular and
amazingly simple one reason for this simplicity is the served API itself. Which includes methods and classes
to handle many of the routine chores of servlet development. Even advanced to operations like cookie
handling and session tracking tracking are abstracted int convenient classes.
Integration:
Servlets are tightly integrated with the server. This integration allows a servlet to cooperate with the
server in two ways . for e.g.: a servlet can use the server to translate file paths, perform logging, check
authorization, perform MIME type mapping and in some cases even add users to the server’s user database.
Extensibility and Flexibility:
The servlet API is designed to be easily extensible. As it stands today the API includes classes that are
optimized for HTTP servlets.But later it can be extended and optimized for another type of servlets.It is
also possible that its support for HTTP servlets could be further enhanced.
Servlets are also quite flexible, Sun also introduced java server pages. which offer a way to write snippets of
servlet code directly with in a static HTML page using syntax similar to Microsoft’s Active server pages(ASP)
31
5.3.JDBC
What is JDBC?
any relational database. One can write a single program using the JDBC API,and the JDBC is a
Java Api for executing SQL,Statements(As a point of interest JDBC is trademarked name and is not an
acronym; nevertheless,Jdbc is often thought of as standing for Java Database Connectivity. It consists of a
set of classes and interfaces written in the Java Programming language.JDBC provides a standard API for
tool/database developers and makes it possible to write database applications using a pure Java API
Using JDBC, it is easy to send SQL statements to virtually program will be able to send SQL .statements to
the appropriate database. The Combination of Java and JDBC lets a programmer writes it once and run it
anywhere.
What Does JDBC Do?
Simply put,JDBC makes it possible to do three things
o Establish a connection with a database
o Send SQL statements
o Process the results
o JDBC Driver Types
o The JDBC drivers that we are aware of this time fit into one of four categories
o JDBC-ODBC Bridge plus ODBC driver
o Native-API party-java driver
o JDBC-Net pure java driver
o Native-protocol pure Java driver
An individual database system is accessed via a specific JDBC driver that implements the java.sql.Driver
interface. Drivers exist for nearly all-popular RDBMS systems, through few are available for free. Sun
bundles a free JDBC-ODBC bridge driver with the JDK to allow access to a standard ODBC,data sources,
such as a Microsoft Access database, Sun advises against using the bridge driver for anything other than
development and very limited development.
JDBC drivers are available for most database platforms, from a number of vendors and in a number of
different flavours. There are four driver categories
32
Type 01-JDBC-ODBC Bridge Driver
Type 01 drivers use a bridge technology to connect a java client to an ODBC database service. Sun’s
JDBC-ODBC bridge is the most common type 01 driver. These drivers implemented using native code.
Type 02-Native-API party-java Driver
Type 02 drivers wrap a thin layer of java around database-specific native code libraries for Oracle
databases, the native code libraries might be based on the OCI(Oracle call Interface) libraries, which were
originally designed for c/c++ programmers, Because type-02 drivers are implemented using native code. in
some cases they have better performance than their all-java counter parts. They add an element of risk,
however, because a defect in a driver’s native code section can crash the entire server
Type 03-Net-Protocol All-Java Driver
Type 03 drivers communicate via a generic network protocol to a piece of custom middleware. The
middleware component might use any type of driver to provide the actual database access. These drivers are
all java, which makes them useful for applet deployment and safe for servlet deployment
Type-04-native-protocol All-java Driver
Type o4 drivers are the most direct of the lot. Written entirely in java, Type 04 drivers understand
database-specific networking. protocols and can access the database directly without any additional software
JDBC-ODBC Bridge
If possible use a Pure Java JDBC driver instead of the Bridge and an ODBC driver. This completely
eliminates the client configuration required by ODBC.It also eliminates the potential that the Java VM could
be corrupted by an error in the native code brought in by the Bridge(that is, the Bridge native library, the
ODBC driver manager library, library, the ODBC driver library, and the database client library)
WHAT IS The JDBC-ODBE Bridge ?
The JDBC-ODBC Bridge is a Jdbc driver, which implements JDBC operations by translating them into
ODBC operations. To ODBC it appears as a normal application program. The Bridge is implemented as the
sun.jdbc.odbc Java package and contains a native library used to access ODBC.The Bridge is joint
development of Intersolv and Java Soft
5.4.HTML, JAVA SCRIPT
Hypertext Markup Language(HTML), the languages of the world wide web(WWW), allows users to
produces web pages that included text, graphics and pointer to other web pages (Hyperlinks).
33
HTML is not a programming language but it is an application of ISO Standard 8879,SGML(Standard
Generalized Markup Language),but
Specialized to hypertext and adapted to the Web. The idea behind Hypertext one point to another point. We
can navigate through the information based on out interest and preference. A markup language is simply a
series of items enclosed within the elements should be displayed.
Hyperlinks are underlined or emphasized works that load to other documents or some portions of the same
document.
Html can be used to display any type of document on the host computer, which can be geographically at a
different location. It is a versatile language and can be used on any platform or desktop
HTML provides tags(special codes) to make the document look attractive.
HTML provides are not case-sensitive. Using graphics,fonts,different sizes, color, etc.. can enhance the
presentation of the document. Anything
That is not a tag is part of the document it self.
Basic Html Tags:
<!-- --> Specific Comments.
<A>………</A> Creates Hypertext links.
<B>………</B> Creates hypertext links.
<Big>……..</Big> Formats text in large-font
<Body>…….</Body> contains all tags and text in the Html-document
<Center>……</Center> Creates Text
<DD>………..</DD> Definition of a term.
<TABLE>……</TABLE> creates table
<Td>………..</Td> indicates table data in a table.
<Tr>………..</Tr> designates a table row
<Th>……….</Th> creates a heading in a table.
Advantages:
A HTML document is small and hence easy to send over the net.It is small because it does not
include formatted information.
34
HTML is platform independent
HTML tags are not case-sensitive.
JAVA SCRIPT
The Java Script Language
JavaScript is a compact , object-based scripting language for developing client and server internet
applications. Netscape Navigator 2.0 interprets JavaScript statements embedded directly in an HTML page.
and Livewire enables you to create server-based applications similar to common gateway interface(cgi)
programs.
In a client application for Navigator, JavaScript statements embedded in an HTML Page can recognize
and respond to user events such as mouse clicks form
Input, and page navigation.
For example, you can write a JavaScript function to verify that users enter valid information into a form
requesting a telephone number or zip code . Without any network transmission, an Html page with
embedded Java Script can interpret the entered text and alert the user with a message dialog if the input is
invalid or you can use JavaScript to perform an action (such as play an audio file, execute an applet, or
communicate with a plug-in) in response to the user opening or exiting a page.
5.5. Oracle
Oracle is a relational database management system, which organizes data in the form of tables. Oracle
is one of many database servers based on RDBMS model, which manages a seer of data that attends three
specific things-data structures, data integrity and data manipulation.
With oracle cooperative server technology we can realize the benefits of open, relational systems for
all the applications. Oracle makes efficient use of all systems resources, on all hardware architecture; to
deliver unmatched performance, price performance and scalability. Any DBMS to be called as RDBMS has
to satisfy Dr.E.F.Codd’s rules.
Features of Oracle:
Portable
35
The Oracle RDBMS is available on wide range of platforms ranging from PCs to super computers and
as a multi user loadable module for Novel NetWare, if you develop application on system you can run the same
application on other systems without any modifications.
Compatible
Oracle commands can be used for communicating with IBM DB2 mainframe RDBMS that is different
from Oracle, which is Oracle compatible with DB2. Oracle RDBMS is a high performance fault tolerant
DBMS, which is specially designed for online transaction processing and for handling large database
applications.
Multithreaded Server Architecture
Oracle adaptable multithreaded server architecture delivers scalable high performance for very large
number of users on all hardware architecture including symmetric multiprocessors (sumps) and loosely coupled
multiprocessors. Performance is achieved by eliminating CPU, I/O, memory and operating system bottlenecks
and by optimizing the Oracle DBMS server code to eliminate all internal bottlenecks.
Oracle has become the most popular RDBMS in the market because of its ease of use
Client/server architecture.
Data independence.
Ensuring data integrity and data security.
Managing data concurrency.
Parallel processing support for speed up data entry and online transaction processing used for
applications.
DB procedures, functions and packages.
Dr.E.F.Codd’s Rules
These rules are used for valuating a product to be called as relational database management systems. Out
of 12 rules, a RDBMS product should satisfy at least 8 rules + rule called rule 0 that must be satisfied.
RULE 0: Foundation Rule
For any system to be advertised as, or claimed to be relational DBMS should manage database with in it
self, with out using an external language.
RULE 1: Information Rule
All information in relational database is represented at logical level in only one way as values in tables.
36
RULE 2: Guaranteed Access
Each and every data in a relational database is guaranteed to be logically accessibility by using to a
combination of table name, primary key value and column name.
RULE 3: Systematic Treatment of Null Values
Null values are supported for representing missing information and inapplicable information. They must
be handled in systematic way, independent of data types.
RULE 4: Dynamic Online Catalog based Relation Model
The database description is represented at the logical level in the same way as ordinary data so that
authorized users can apply the same relational language to its interrogation as they do to the regular data.
RULE 5: Comprehensive Data Sub Language
A relational system may support several languages and various models of terminal use. However there
must be one language whose statement can express all of the following:
Data Definitions, View Definitions, Data Manipulations, Integrity, Constraints, Authorization and
transaction boundaries.
RULE 6: View Updating
Any view that is theoretical can be updatable if changes can be made to the tables that effect the desired
changes in the view.
RULE 7: High level Update, Insert and Delete
The capability of handling a base relational or derived relational as a single operand applies not only
retrieval of data also to its insertion, updating, and deletion.
RULE 8: Physical Data Independence
Application program and terminal activities remain logically unimpaired whenever any changes are
made in either storage representation or access method.
37
RULE 9: Logical Data Independence
Application programs and terminal activities remain logically unimpaired whenever any changes are
made in either storage representation or access methods.
RULE 10: Integrity Independence
Integrity constraints specific to particular database must be definable in the relational data stored in the
catalog, not in application program.
RULE 11: Distributed Independence
Whether or not a system supports database distribution, it must have a data sub-language that can
support distributed databases without changing the application program.
RULE 12: Non Sub-Version
If a relational system has low level language, that low language cannot use to subversion or by pass the
integrity rules and constraints expressed in the higher level relational language.
Oracle supports the following Codd’s Rules
Rule 1: Information Rule (Representation of information)-YES.
Rule 2: Guaranteed Access-YES.
Rule 3: Systematic treatment of Null values-YES.
Rule 4: Dynamic on-line catalog-based Relational Model-YES.
Rule 5: Comprehensive data sub language-YES.
Rule 6: View Updating-PARTIAL.
Rule 7: High-level Update, Insert and Delete-YES.
Rule 8: Physical data Independence-PARTIAL.
Rule 9: Logical data Independence-PARTIAL.
Rule 10: Integrity Independence-PARTIAL.
Rule 11: Distributed Independence-YES.
Rule 12: Non-subversion-YES.
38
Chapter 6
39
SYSTEM DESIGN6.1. INTRODUCTION
Software design sits at the technical kernel of the software engineering process and is applied regardless
of the development paradigm and area of application. Design is the first step in the development phase for any
engineered product or system. The designer’s goal is to produce a model or representation of an entity that will
later be built. Beginning, once system requirement have been specified and analyzed, system design is the first
of the three technical activities -design, code and test that is required to build and verify software.
The importance can be stated with a single word “Quality”. Design is the place where quality is fostered
in software development. Design provides us with representations of software that can assess for quality.
Design is the only way that we can accurately translate a customer’s view into a finished software product or
system. Software design serves as a foundation for all the software engineering steps that follow. Without a
strong design we risk building an unstable system – one that will be difficult to test, one whose quality cannot
be assessed until the last stage.
During design, progressive refinement of data structure, program structure, and procedural details are
developed reviewed and documented. System design can be viewed from either technical or project
management perspective. From the technical point of view, design is comprised of four activities – architectural
design, data structure design, interface design and procedural design.
40
6.2. SYSTEM WORKFLOW
41
6.3. NORMALIZATION
It is a process of converting a relation to a standard form. The process is used to handle the problems
that can arise due to data redundancy i.e. repetition of data in the database, maintain data integrity as well as
handling problems that can arise due to insertion, updation, deletion anomalies.
Decomposing is the process of splitting relations into multiple relations to eliminate anomalies and
maintain anomalies and maintain data integrity. To do this we use normal forms or rules for structuring
relation.
Insertion anomaly: Inability to add data to the database due to absence of other data.
Deletion anomaly: Unintended loss of data due to deletion of other data.
Update anomaly: Data inconsistency resulting from data redundancy and partial update
Normal Forms: These are the rules for structuring relations that eliminate anomalies.
FIRST NORMAL FORM:
A relation is said to be in first normal form if the values in the relation are atomic for every attribute in
the relation. By this we mean simply that no attribute value can be a set of values or, as it is sometimes
expressed, a repeating group.
SECOND NORMAL FORM:
A relation is said to be in second Normal form is it is in first normal form and it should satisfy any one
of the following rules.
1) Primary key is a not a composite primary key
2) No non key attributes are present
3) Every non key attribute is fully functionally dependent on full set of primary key.
THIRD NORMAL FORM:
A relation is said to be in third normal form if their exits no transitive dependencies.
Transitive Dependency: If two non key attributes depend on each other as well as on the primary key then
they are said to be transitively dependent.
The above normalization principles were applied to decompose the data in multiple tables thereby
making the data to be maintained in a consistent state.
6.4. DATA DICTIONARY
create table deptinfo(
topics varchar2(2000),
42
deptname varchar2(2000));
create table qanda(
topic varchar2(2000),
department varchar2(2000),
question varchar2(2000),
answer varchar2(2000),
category varchar2(10),
count number,
date1 varchar2(15),
date2 varchar2(15));
create table adminreg(
userid varchar2(5) PRIMARY KEY,
firstname varchar2(20),
lastname varchar2(20),
password varchar2(10),
age number(3),
dateofbirth varchar2(10),
qualification varchar2(20),
gender varchar2(7),
martialstatus varchar2(15),
email varchar2(30),
address varchar2(200),
city varchar2(30),
state varchar2(30),
country varchar2(30),
zipcode varchar2(10),
phone number(10),
designation varchar2(20),
department varchar2(20));
create table userreg(
43
userid varchar2(5) PRIMARY KEY,
firstname varchar2(20),
lastname varchar2(20),
password varchar2(10),
age number(3),
dateofbirth varchar2(10),
qualification varchar2(20),
gender varchar2(7),
martialstatus varchar2(15),
email varchar2(30),
address varchar2(200),
city varchar2(30),
state varchar2(30),
country varchar2(30),
zipcode varchar2(10),
phone number(10),
designation varchar2(20));
create table superreg(
userid varchar2(5) primary key,
password varchar2(10),
designation varchar2(20));
create table userques(
userid varchar2(5),
topic varchar2(20),
department varchar2(20),
question varchar2(200));
insert into superreg values('super','super','manager');
6.5. E – R DIAGRAMS:
The relation upon the system is structure through a conceptual ER-Diagram, which not only specifics the
existential entities but also the standard relations through which the system exists and the cardinalities
that are necessary for the system state to continue.
44
The Entity Relationship Diagram (ERD) depicts the relationship between the data objects. The ERD is the
notation that is used to conduct the date modeling activity the attributes of each data object noted is the ERD
can be described resign a data object descriptions.
The set of primary components that are identified by the ERD are
Data object
Relationships
Attributes
Various types of indicators.
The primary purpose of the ERD is to represent data objects and their relationships.
45
ANSQUE
ADMINISTRATOR
DEPPASS -WORD
ADMINID
QANDAPOS
T
STUDENT
USERID
PASSWORD CATEGORY
DEP
TOPICS
POST -DATE
COUNT
6.6. DATA FLOW DIAGRAMS
A data flow diagram is graphical tool used to describe and analyze movement of data through a system.
These are the central tool and the basis from which the other components are developed. The transformation of
data from input to output, through processed, may be described logically and independently of physical
components associated with the system. These are known as the logical data flow diagrams. The physical data
flow diagrams show the actual implements and movement of data between people, departments and
workstations. A full description of a system actually consists of a set of data flow diagrams. Using two familiar
46
ADMINAPP SUPER USER
DEP
PASS -WORD
ADMI ID
DEPPASS - WORD
ID
QANDA
CATEGORY DEP
TOPICS
COUNT
POST -DATE
ANSQUE
notations Yourdon, Gane and Sarson notation develops the data flow diagrams. Each component in a DFD is
labeled with a descriptive name. Process is further identified with a number that will be used for identification
purpose. The development of DFD’S is done in several levels. Each process in lower level diagrams can be
broken down into a more detailed DFD in the next level. The lop-level diagram is often called context diagram.
It consist a single process bit, which plays vital role in studying the current system. The process in the context
level diagram is exploded into other process at the first level DFD.
The idea behind the explosion of a process into more process is that understanding at one level of detail
is exploded into greater detail at the next level. This is done until further explosion is necessary and an
adequate amount of detail is described for analyst to understand the process.
Larry Constantine first developed the DFD as a way of expressing system requirements in a graphical
from, this lead to the modular design.
A DFD is also known as a “bubble Chart” has the purpose of clarifying system requirements and
identifying major transformations that will become programs in system design. So it is the starting point of the
design to the lowest level of detail. A DFD consists of a series of bubbles joined by data flows in the system.
DFD SYMBOLS:
In the DFD, there are four symbols
1. A square defines a source(originator) or destination of system data
2. An arrow identifies data flow. It is the pipeline through which the information flows
3. A circle or a bubble represents a process that transforms incoming data flow into outgoing data flows.
4. An open rectangle is a data store, data at rest or a temporary repository of data
Process that transforms data flow
Source or Destination of data
Data flow
Data Store
47
CONSTRUCTING A DFD:
Several rules of thumb are used in drawing DFD’S:
1. Process should be named and numbered for an easy reference. Each name should be representative of the
process.
2. The direction of flow is from top to bottom and from left to right. Data traditionally flow from source to the
destination although they may flow back to the source. One way to indicate this is to draw long flow line
back to a source. An alternative way is to repeat the source symbol as a destination. Since it is used more
than once in the DFD it is marked with a short diagonal.
3. When a process is exploded into lower level details, they are numbered.
4. The names of data stores and destinations are written in capital letters. Process and dataflow names have the
first letter of each work capitalized
A DFD typically shows the minimum contents of data store. Each data store should contain all the data
elements that flow in and out.
Questionnaires should contain all the data elements that flow in and out. Missing interfaces
redundancies and like is then accounted for often through interviews.
SAILENT FEATURES OF DFD’S
1. The DFD shows flow of data, not of control loops and decision are controlled considerations do not appear
on a DFD.
2. The DFD does not indicate the time factor involved in any process whether the dataflow take place daily,
weekly, monthly or yearly.
3. The sequence of events is not brought out on the DFD.
TYPES OF DATA FLOW DIAGRAMS
1. Current Physical
2. Current Logical
3. New Logical
4. New Physical
48
CURRENT PHYSICAL:
In Current Physical DFD process label include the name of people or their positions or the names of
computer systems that might provide some of the overall system-processing label includes an identification of
the technology used to process the data. Similarly data flows and data stores are often labels with the names of
the actual physical media on which data are stored such as file folders, computer files, business forms or
computer tapes.
CURRENT LOGICAL:
The physical aspects at the system are removed as much as possible so that the current system is reduced
to its essence to the data and the processors that transform them regardless of actual physical form.
NEW LOGICAL:
This is exactly like a current logical model if the user were completely happy with the user were
completely happy with the functionality of the current system but had problems with how it was implemented
typically through the new logical model will differ from current logical model while having additional
functions, absolute function removal and inefficient flows recognized.
NEW PHYSICAL:
The new physical represents only the physical implementation of the new system.
RULES GOVERNING THE DFD’S
PROCESS
1) No process can have only outputs.
2) No process can have only inputs. If an object has only inputs than it must be a sink.
3) A process has a verb phrase label.
DATA STORE
1) Data cannot move directly from one data store to another data store, a process must move data.
2) Data cannot move directly from an outside source to a data store, a process, which receives, must move data
from the source and place the data into data store
3) A data store has a noun phrase label.
SOURCE OR SINK
The origin and /or destination of data
1) Data cannot move direly from a source to sink it must be moved by a process
2) A source and /or sink has a noun phrase land
49
DATA FLOW
1) A Data Flow has only one direction of flow between symbols. It may flow in both directions between a
process and a data store to show a read before an update. The later is usually indicated however by two
separate arrows since these happen at different type.
2) A join in DFD means that exactly the same data comes from any of two or more different processes data
store or sink to a common location.
3) A data flow cannot go directly back to the same process it leads. There must be at least one other process
that handles the data flow produce some other data flow returns the original data into the beginning process.
4) A Data flow to a data store means update (delete or change).
5) A data Flow from a data store means retrieve or use.
A data flow has a noun phrase label more than one data flow noun phrase can appear on a single arrow as long
as all of the flows on the same arrow move together as one package.
DATA FLOW DIAGRAMS
Level 0:-
Questions U
Answers Context Level:-
IWS DATABASE
questions
Answers
50
USER INFOWAY
SYSTEM
USER Info way System
Level 1: - IWS DATABASE
LOGIN INFO
Designation
Username StudentPassword
New QuestionAdmin
Invalid FAQ DATABASE User
Super UserNew Admin/Dept
DEPT/ADMIN
51
USER1.0
Login/Reg-
istration Process
2.0 Student Process
3.0 Admin Process
4.0 Super User Process
VIEW ANSWERS TO QUESTION-S
Second Level for 2.0: -
DEPT STORAGE TOPIC STORAGE IWS DB
Dept Old Que/Ans
Stud t - Topic
New Topic
New Question TOPICS/IWS DATABASE
Updated Topic/Question
Second Level for 3.0:- Updated Questions
IWS DATABASE
New Topic
Admin Answer Updated--------------- TOPIC DATABASE
Topics
New Ques Answers/Questions
52
2.1 Check for Dept
2.2 Check Topics Of Dept
2.3 Check For FAQ’S Of Topic
VIEW ANS/QUE TO STUDENT
3.0 Admin Process
3.1 Add/Del/Modify Question Topic
3.2 Assign Keyword,
phrases
View Ans/Ques to Student
Second Level for 4.0: - DEPT/ADMIN STORAGE
DEPT STORAGE
Dept Info
Super User
Admin InfoADMIN STORAGE
6.7. ACTVITY DIAGRAMS
Super User Activity Diagram
Administrator Activity Diagram
53
4.1 Check for Dept/Admin
4.2 Add/del/Modify dept
4.3 Add/Modify/Delete Admin
54
6.8. USE CASE DIAGRAMS
Use Case for Super user
Reg Administraror
Create Department
Super User
Create Department
Delete Topic
Administrator
Use Case for Administrator
Addministrator
Send Answers to Students
Add/Delete/Modify qestions/answers
Student
Check Posted questions
Addministrator
55
Use Case for Student
Student
Registration
View Question/Answers
Post a Question
Administrator
View Answer for a Posted Question
Student
56
6.9. SEQUENCE DIAGRAMS
Sequence Diagram for Super User
: SuperUserLogin Create
DepartmentReg Admin & Assign
DepartmentAdd Topic Delete Topic Delete Dept Delete Admin
Enter Id ,password,TypeVerify
Invalid
Create DepartmentAssign Admin
Add Topic
Sucess
Delete Topic
Delete Admin
Delete Dept
57
Sequence Diagram for Administrator
: AdministratorLogin View Posted
QuestionAnswer to Posted
QuestionsAdd
Question/AnswerModify
Question/AnswerDelete
Question/Answer
Enter Id,password,TypeCheck
Check Posted queAnswer to Student
SucessCheck for more
Add que/ans
Sucess
Modify que/ans
Sucess
Delete que/ans
Sucess
58
Sequence Diagram for Student
Post Question : Student
Register Login Check Available Questions
Check Answer for Posted Question
Enter Details
Id
Enter Id Details
Verify
VerifySucess
Check Available Questionsview
Post a QuestionSucess
Verify Answer
Check Answer
Collaboration Diagram for Super User
59
: SuperUser
Login
Create Department
Reg Admin & Assign Department
Add Topic
Delete Topic
Delete Dept Delete
Admin
1: Enter Id ,password,Type
2: Verify
3: Invalid
4: Create Department
5: Assign Admin
6: Sucess
7: 8: Add Topic
9:
10: Delete Topic
11:
12: Delete Admin
13:
14: Delete Dept
15:
Collaboration Diagram for Administrator
Answer to Posted Questions
: Administrator
Login Add Question/Answer
Modify Question/Answer
View Posted Question
Delete Question/Answer
1: Enter Id,password,Type
2: Check
3:
4: Check Posted que
5: Answer to Student6: Sucess
7: Check for more
8: Add que/ans
9: Sucess
10: Modify que/ans
11: Sucess
12: Delete que/ans
13: Sucess
60
Collaboration Diagram for Student
: Student
Login
Register
Check Available Questions
Post Question
Check Answer for Posted Question
2: Verify
4: Enter Id Details
5: Verify
6: Sucess
7: Check Available Questions
8: view
9: Post a Question
10: Sucess 11: Verify Answer
12: Check Answer
1: Enter Details
3: Id
61
6.9. CLASS DIAGRAMS
Class Diagram
Register User
name : StringDob : Dateage : DoubleAddress : Stringemail : StringPassword : String
Login
Id : Stringname : Stringtype : string
CheckAvailable
Deptid : StringTopic : Stringquestion : StringAnswer : String
CheckAnswer
Question : StringAnswer : String
Check
type : String
PostQuestion
Deptid : StringTopic : Stringquestion : StringStudId : Int
CreateDept
DeptId : Stringname : String
Check
type : String
RegAdmin
name : StringDob : dateAge : DoubleAdd : Stringemail : Stringpass : stringDeptId : String
CheckPostedQuestion
Studid : inttopic : StringQuestion : String
SendAnswer
studId : intquestion : Stringans : String
Check
type : String
AddQus
deptId : Stringtopic : Stringqus : Stringans : String
Student
SuperUser
Administrator
62
Chapter 7
63
OUTPUT SCREENS
FAQ SCREENSHomepage
64
1. Super User Module
1.1 Login
1.1.1 Login Screen
65
1.1.2 Login Fail Screen
66
1.1.3 Login Success
67
1.2 Register Admin
68
Registration Success
69
1.2 Shuffling Admin
70
1.3 Add Departments
71
1.4 Delete Department
72
1.5 Add Topics
73
1.6 Delete Topics
74
1.7 Add Question
75
76
77
1.8 Delete Questions
78
79
2. Administrator
2.1 Login
80
Login Fail
81
Login Success
82
2.2 Change Password
wrong
83
2.3 Add Question
84
85
2.4 Modify Answer
86
2.5 Check for Posted Questions
87
88
3. Student3.1 New Registration
89
3.2 Login
3.2.2 Login Fail
90
Login Success
91
3.3 Change Password
92
Chapter 8
93
SYSTEM TESTING AND IMPLEMENTATION
8.1. INTRODUCTION
Software testing is a critical element of software quality assurance and represents the ultimate review of
specification, design and coding. In fact, testing is the one step in the software engineering process that could be
viewed as destructive rather than constructive.
A strategy for software testing integrates software test case design methods into a well-planned series of
steps that result in the successful construction of software. Testing is the set of activities that can be planned in
advance and conducted systematically. The underlying motivation of program testing is to affirm software
quality with methods that can economically and effectively apply to both strategic to both large and small-scale
systems.
8.2. STRATEGIC APPROACH TO SOFTWARE TESTING
The software engineering process can be viewed as a spiral. Initially system engineering defines the role
of software and leads to software requirement analysis where the information domain, functions, behavior,
performance, constraints and validation criteria for software are established. Moving inward along the spiral, we
come to design and finally to coding. To develop computer software we spiral in along streamlines that decrease
the level of abstraction on each turn.
A strategy for software testing may also be viewed in the context of the spiral. Unit testing begins at the
vertex of the spiral and concentrates on each unit of the software as implemented in source code. Testing
progress is done by moving outward along the spiral to integration testing, where the focus is on the design and
the construction of the software architecture. Talking another turn on outward on the spiral we encounter
validation testing where requirements established as part of software requirements analysis are validated against
the software that has been constructed. Finally we arrive at system testing, where the software and other system
elements are tested as a whole.
94
8.3. Unit Testing
Unit testing focuses verification effort on the smallest unit of software design, the module. The unit testing we
have is white box oriented and some modules the steps are conducted in parallel.
1. WHITE BOX TESTING
This type of testing ensures that
All independent paths have been exercised at least once
95
UNIT TESTING
MODULE TESTING
SUB-SYSTEM TESING
SYSTEM TESTING
ACCEPTANCE TESTING
Component Testing
Integration Testing
User Testing
All logical decisions have been exercised on their true and false sides
All loops are executed at their boundaries and within their operational bounds
All internal data structures have been exercised to assure their validity.
To follow the concept of white box testing we have tested each form .we have created independently to verify
that Data flow is correct, All conditions are exercised to check their validity, All loops are executed on their
boundaries.
2. BASIC PATH TESTING
Established technique of flow graph with Cyclomatic complexity was used to derive test cases for all the
functions. The main steps in deriving test cases were:
Use the design of the code and draw correspondent flow graph.
Determine the Cyclomatic complexity of resultant flow graph, using formula:
V(G)=E-N+2 or
V(G)=P+1 or
V(G)=Number Of Regions
Where V(G) is Cyclomatic complexity,
E is the number of edges,
N is the number of flow graph nodes,
P is the number of predicate nodes.
Determine the basis of set of linearly independent paths.
3. CONDITIONAL TESTING
In this part of the testing each of the conditions were tested to both true and false aspects. And all the resulting
paths were tested. So that each path that may be generate on particular condition is traced to uncover any
possible errors.
4. DATA FLOW TESTING
This type of testing selects the path of the program according to the location of definition and use of variables.
This kind of testing was used only when some local variable were declared. The definition-use chain method
was used in this type of testing. These were particularly useful in nested statements.
5. LOOP TESTING
96
In this type of testing all the loops are tested to all the limits possible. The following exercise was adopted for
all loops:
All the loops were tested at their limits, just above them and just below them.
All the loops were skipped at least once.
For nested loops test the inner most loop first and then work outwards.
For concatenated loops the values of dependent loops were set with the help of connected loop.
Unstructured loops were resolved into nested loops or concatenated loops and tested as above.
Each unit has been separately tested by the development team itself and all the input have been validated.
97
Chapter 9
98
System Security9.1. Introduction
The protection of computer based resources that includes hardware, software, data, procedures and
people against unauthorized use or natural
Disaster is known as System Security.
System Security can be divided into four related issues:
Security
Integrity
Privacy
Confidentiality
SYSTEM SECURITY refers to the technical innovations and procedures applied to the hardware and
operation systems to protect against deliberate or accidental damage from a defined threat.
DATA SECURITY is the protection of data from loss, disclosure, modification and destruction.
SYSTEM INTEGRITY refers to the power functioning of hardware and programs, appropriate physical
security and safety against external threats such as eavesdropping and wiretapping.
PRIVACY defines the rights of the user or organizations to determine what information they are willing to
share with or accept from others and how the organization can be protected against unwelcome, unfair or
excessive dissemination of information about it.
CONFIDENTIALITY is a special status given to sensitive information in a database to minimize the possible
invasion of privacy. It is an attribute of information that characterizes its need for protection.
9.2. SECURITY IN SOFTWARE
System security refers to various validations on data in form of checks and controls to avoid the system from
failing. It is always important to ensure that only valid data is entered and only valid operations are performed
on the system. The system employees two types of checks and controls:
CLIENT SIDE VALIDATION
99
Various client side validations are used to ensure on the client side that only valid data is entered. Client side
validation saves server time and load to handle invalid data. Some checks imposed are:
JavaScript in used to ensure those required fields are filled with suitable data only. Maximum lengths of the
fields of the forms are appropriately defined.
Forms cannot be submitted without filling up the mandatory data so that manual mistakes of submitting
empty fields that are mandatory can be sorted out at the client side to save the server time and load.
Tab-indexes are set according to the need and taking into account the ease of user while working with the
system.
SERVER SIDE VALIDATION
Some checks cannot be applied at client side. Server side checks are necessary to save the system from failing
and intimating the user that some invalid operation has been performed or the performed operation is restricted.
Some of the server side checks imposed is:
Server side constraint has been imposed to check for the validity of primary key and foreign key. A primary
key value cannot be duplicated. Any attempt to duplicate the primary value results into a message intimating
the user about those values through the forms using foreign key can be updated only of the existing foreign
key values.
User is intimating through appropriate messages about the successful operations or exceptions occurring at
server side.
Various Access Control Mechanisms have been built so that one user may not agitate upon another. Access
permissions to various types of users are controlled according to the organizational structure. Only
permitted users can log on to the system and can have access according to their category. User- name,
passwords and permissions are controlled o the server side.
Using server side validation, constraints on several restricted operations are imposed.
100
Chapter 10
101
CONCLUSION
This project will be designed and developed for FAQ’s posted to various departments. The primary
goal of Infoware Services is to provide an environment that is both convenient and efficient to use in retrieving
and storing database information.
In “Info ware Services” maintaining the details of various frequently asked questions posted by
the students to the administrators of consult department are to be kept in a data base and also can be retrieved
easily when the admin answers that question
.
The proposal described in this deliverable is to include the QoS user requirements in the user
profile and to link it to the session. Hence his QoS requirements are conveyed across the terminal/network
elements to the various providers involved during the use of the service
The user profile includes four sub-profiles (Personal information, Location, Agenda and Role)
and is expected to interact with the QoS model including his preferences.
102
The implementation of such a proposal should lead to an increased user satisfaction as his QoS
requirements are expected to be fulfilled and if this not possible, a warning will be provided to the user so that
he can seek for alternative solutions.
From the provider perspective, this proposal should help to manage the QoS of the various
service components possibly provided by different providers so that the overall QoS is kept compliant to the
main provider commitments.
Chapter 11
103
BIBLIOGRAPHY
JAVA SERVLETS
- TATA McGraw HILL
- Karl Moss
SOFTWARE ENGINEERING
A Practitioner's Approach
104
- McGraw-Hill Publications
- Roger S. Pressman.
Oracle-SQL & Pl/Sql Programming
- Evan Byross [J2EE-Overview] - http://java.sun.com/j2ee/overview.html
[JS-NET] - http://developer.netscape.com/docs/manuals/communicator/jsref/contents.htm
[J2EE-Home] - http://java.sun.com/j2ee/
[J2EE-Components] - http://java.sun.com/j2ee/blueprints/platform_technologies/component/index.html
[SUN-Developer] - http://developer.java.sun.com/developer/
105